JP4763352B2 - In-meter indicator lighting device - Google Patents

Description

  BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an indicator illumination device for displaying vehicle information, and more particularly to an in-meter indicator illumination device suitable for illuminating an indicator display device for indicating a shift position of a shift device provided in a meter. is there.

  9 to 10 show an example of a shift indicator display device provided in a conventional combination meter (see, for example, Patent Document 1).

  First, the configuration of this conventional shift indicator display device will be described.

  In the following specific example, the shift position selected by the shift device among the seven shift positions P, R, N, D, 3, 2, and L will be described as the D shift position. The case where any one of the shift positions of P, R, N, 3, and L is selected by the shift device will be described in substantially the same manner.

  As shown in FIG. 9, the combination meter 1 includes a meter device 2 and a shift indicator display device 5 adjacent to the meter device 2, and the front surface of the combination meter 1 is a dial 3. Covered.

  The dial 3 is configured to have a meter display surface 6 indicated by an unillustrated pointer portion of the meter device 2, an indicator display surface 7 adjacent to the meter display surface 6, and the like. The plurality of meter display surface illumination light sources 4 are transmitted and illuminated from the back.

  The indicator display surface 7 has a plurality of displays in which characters P, R, N, D, 3, 2, and L are printed on the side adjacent to the meter display surface 6 corresponding to the seven shift positions. It has an indicator display section 12 provided with sections 12a to 12g.

  The indicator display surface 7 includes a position display unit 13 provided with a plurality of circular display units 13a to 13g in the vicinity of the plurality of display units 12a to 12g of the indicator display unit 12. Configured.

  Further, the plurality of display portions 13a to 13g of the position display portion 13 correspond to one shift position D selected by the shift device, and a plurality of indicator display surface illumination LEDs included in the shift indicator display device 5. When one of the LEDs, for example, the indicator display surface illumination LED 21d emits light, it is transmitted and illuminated from the back surface. For this reason, the passenger | crew can visually recognize one shift position currently selected by the shift apparatus.

  However, FIG. 10 shows only the indicator display surface illumination LED 21d corresponding to one shift position D selected by the shift device among the plurality of indicator display surface illumination LEDs.

  As shown in FIG. 10, the housing 8 of the combination meter 1 is composed of a stepping motor or the like having a pointer portion (not shown) corresponding to one shift position D selected by the shift device. The movement (not shown) and the indicator light source substrate 9 of the shift indicator display device 5 are integrally formed.

  The meter display surface illumination light sources 4 are fixed so as to protrude upward from the holes provided in the lower end wall 15 of the housing 8 so as to face the back surface of the meter display surface 6.

  The housing 8 houses a recess 14 in which a movement or the like (not shown) of the meter device 2 is accommodated, and an indicator light source substrate 9 or the like included in the shift indicator display device 5 adjacent to the recess 14. And a plurality of upper open recesses into which each of the plurality of indicator display surface illumination LEDs is inserted.

  However, FIG. 10 shows only the upwardly open recess 17d corresponding to one shift position D selected by the shift device among the plurality of upwardly open recesses.

   Further, each of the plurality of upper open recesses is provided with a plurality of openings in lower end walls of the plurality of upper open recesses.

  However, FIG. 10 shows only the opening 20d corresponding to one shift position D selected by the shift device among the plurality of openings.

  The plurality of upper open recesses are increased in diameter toward the upper side so as to cover the back surfaces of the corresponding display units 13a to 13g of the position display unit 13, and the upper open recess side walls 19 are formed. The upper edge is in contact with the back surface of the dial 3 provided with the position display portion 13 and the like.

  The indicator light source substrate 9 has the plurality of indicator display surface illumination LEDs fixed upward at equal intervals and inserted upward from the openings of the plurality of upwardly opened recesses. The upper surface of the light source substrate 9 is in contact with the upper end wall of the downwardly opening recess 16.

  A gap 10 is provided between the dial 3 and the upper edge of the light shielding wall 18 provided in the concave portion of the upper opening, and the composite of the shift indicator display device 5 is provided in the gap 10. A light guide member 11 is inserted.

  At this time, the gap 25 provided in the composite light guide member 11 is on the upper edge side of the light shielding wall 18, and the upper surface of the inclined portion 22 provided in the composite light guide member 11 is on the back surface of the indicator display unit 12. The composite light guide member 11 is placed on the back surface of the indicator display surface 7 so that the upper surface of the transmission portion 23 provided on the composite light guide member 11 is in contact with the back surface of the position display portion 13. It is in contact.

  Further, when the meter display surface 6 is transmitted and illuminated from the back by the meter display surface illumination light source 4, the light emitted by the meter display surface illumination light source 4 passes through the gap 25 and the like. Then, the light enters the lower surface of the inclined portion 22 of the composite light guide member 11 and is guided upward by the inclined portion 22 of the composite light guide member 11 so that the indicator display portion 12 is transmitted and illuminated from the back surface. It is configured as follows.

  At this time, a part of the light incident on the lower surface of the inclined portion 22 of the composite light guide member 11 proceeds in a direction away from the meter device 2, and the inclined portion of the composite light guide member 11. It is narrowed down by the thickness of 22 becoming thin.

  For this reason, the light narrowed down by the inclined portion 22 by the slit portion 24 provided between the inclined portion 22 and the transmitting portion 23 of the composite light guide member 11 is blocked by the slit portion 24, and the transmitting portion. Since the light does not enter 23, the position display unit 13 is configured not to be transmitted and illuminated by this light.

  Further, the light emitted by the meter display surface illumination light source 4 is blocked by the light shielding wall 18 provided in the housing 8, and does not enter the transmission portion 23 of the composite light guide member 11. The position display unit 13 is not illuminated by light.

  Therefore, the light emitted from the meter display surface illumination light sources 4... Does not reach the position display unit 13.

  Further, for example, when one shift position selected by the shift device is D, the light emitted by the indicator display surface illumination LED 21d that is lit corresponding to the shift position D is open upward in the plurality of positions. The light is reflected by the light shielding wall 18 and the side wall 19 of the upper open concave portion 17d corresponding to the shift position D, and is incident on the portion of the transmissive portion 23 corresponding to the display portion 13d.

  Further, the display portion 12d corresponding to the shift position D is transmitted and illuminated from the back surface by the light incident on the portion of the transmission portion 23 corresponding to the display portion 13d and guided upward.

  At this time, a part of the light emitted by the indicator display surface illumination LED 21d that is turned on in correspondence with the shift position D passes through the gap 25 of the composite light guide member 11 and is inclined. Light enters a portion of the portion 22 corresponding to the shift position D.

  Further, light emitted from the meter display surface illumination light source 4... Is incident on a portion corresponding to the shift position D of the inclined portion 22 in addition to light transmitted through the indicator display portion 12 from the back surface. Since the display portion 12d of the indicator display portion 12 is transmitted and illuminated from the back surface by being guided upward, the amount of light visually recognized from the front surface of the display portion 12d corresponding to the shift position D is increased.

  Next, the operation of the shift indicator display device 5 of the conventional combination meter 1 will be described.

  When the meter display surface illumination light source 4 is turned on, a part of the light is guided to the indicator display unit 12 through the inclined portion 22 of the composite light guide member 11. In order to transmit and illuminate the indicator display unit 12, all the display units 12a to 12g emit light simultaneously.

  At this time, since this light is a part of light emitted from the meter display surface illumination light source 4..., All the display units 12 a to 12 g emit light with a weak light amount.

  Further, of the light emitted from the indicator display surface illumination LED 21d that is turned on corresponding to the shift position D, a part of the light enters the portion corresponding to the shift position D of the transmission portion 23, and this transmission. The light is guided through the unit 23 to transmit and illuminate the display unit 13d.

  For this reason, the display unit 13d emits light.

  Furthermore, part of the light emitted by the indicator display surface illumination LED 21d leaks from the gap 25 of the composite light guide member 11 and enters the portion corresponding to the shift position D of the inclined portion 22. .

  Therefore, in addition to the light illuminated by the meter display surface illumination light source 4..., The light incident on the portion corresponding to the shift position D of the inclined portion 22 is added, so the display corresponding to the shift position D. Since the light that transmits and illuminates the portion 12d from the back surface is increased, the display portion 12d is increased in light emission.

Therefore, the occupant can visually recognize the shift position D selected by the shift device.
JP-A-9-86226 (paragraphs 0015 to 0029, FIGS. 1 to 5)

  However, the conventional combination meter 1 requires the composite light guide member 11 to guide the light emitted from the meter display surface illumination light source 4 and the plurality of indicator display surface illumination LEDs to the indicator display surface 7. As a result, the number of parts increases and it is difficult to suppress an increase in manufacturing cost.

  In addition, since the composite light guide member 11 requires processing for applying the inclined portion 22 and the slit portion 24, the processing cost increases.

  Since the conventional combination meter 1 has a structure in which the meter display surface illumination LED light source 4 is shared by the meter display surface 6 and the indicator display surface 7, the meter display surface illumination light source 4, the shift indicator display device 5, and the like. The arrangement of the meter device 2 is limited to adjacent positions. Furthermore, this has a problem that the degree of freedom in design is reduced.

  Therefore, an object of the present invention is to provide an in-meter indicator illumination device that can perform desired background illumination on an indicator display unit of a shift indicator display device without increasing the number of components such as light guide members.

In order to achieve the above object, according to the first aspect of the present invention, a meter device that is constantly lit during traveling is provided in a combination meter of a vehicle , and a meter display surface and a display of a shift indicator display device are provided in the meter device. An in-meter indicator illuminating device that is arranged adjacent to each other and illuminates and transmits the display surface of the shift indicator display device from the back side thereof by light emission of a plurality of position lamps, and the shift indicator among the plurality of position lamps A selection illumination circuit for emitting any one position lamp corresponding to one shift position selected by the apparatus, and a background illumination for emitting position lamps corresponding to other unselected shift positions with substantially the same amount of light and a circuit portion, a light amount adjustment for the position lamp When the illumination is lit, the background illumination circuit unit weakens the light emission amount of the position lamp by increasing the resistance value of the light amount adjustment resistor, and when the illumination is not lit, It features an in- meter indicator illuminating device having analog electronic circuit dimming means for increasing the amount of light emitted from the position lamp by reducing the resistance value .

  And what was described in Claim 2 is the meter apparatus visually recognized from the light quantity visually recognized from the display surface side of the position lamp turned on by the said background illumination circuit part, and the front side of the meter display surface of the said meter apparatus. The in-meter indicator illumination device according to claim 1, wherein the light amount of the inner light source is substantially the same.

Further, according to a third aspect of the present invention, in the background illumination circuit unit, the brightness of the display surface of the shift indicator display device corresponding to one shift position selected by the shift device at the time of illumination lighting, 3. The indicator light in the meter according to claim 1 or 2, wherein the illumination light is set so as to have substantially the same light amount as the brightness of the display surface of the shift indicator display device corresponding to a shift position not selected by the shift device when the illumination of the meter device is not lit. Features the device.

  According to the first aspect of the present invention configured as described above, the background illumination circuit unit turns on the position lamp with substantially the same amount of light and becomes background illumination of the indicator display unit.

  For this reason, the display surface of the shift indicator display device can be always transmitted and illuminated from the back surface without using a light guide member or the like to guide light from the light source or the like of the meter device.

  At this time, the position lamp emits light with a light amount different from that of the background illumination by the selection illumination circuit that lights the position lamp corresponding to any one shift position selected by the shift device of the vehicle.

For this reason, when the illumination is lit and not lit, the shift position selected by the shift device can be visually recognized by the light emission of different amounts of light from the position lamp of the shift indicator display device.

  For this reason, the conventional light guide member becomes unnecessary, and the number of parts can be reduced.

  According to a second aspect of the present invention, in the meter device, the amount of light visually recognized from the display surface side of the position lamp lit by the background illumination circuit unit is visually recognized from the front side of the meter display surface of the meter device. Illumination is performed so that the amount of light from the inner light source is substantially the same.

  For this reason, even if the meter display surface of the meter device and the display surface of the shift indicator display device are arranged adjacent to each other, the amount of light can be approximated and illuminated without a sense of incongruity.

  Accordingly, the degree of freedom in the layout of the meter device can be improved by providing the display surface of the shift indicator display device within the meter display surface of the meter device.

Furthermore, the analog electronics dimming means using resistance before Symbol background lighting circuit unit, the amount of light visible from the display surface side of the position lamp is dimmed.

  For this reason, the adjustment of the amount of light visually recognized from the display surface side of the lit position lamp can be easily realized by adjusting the resistance value of the resistor.

In this case, the digital control dimming means for dimming using a transistor circuit before Symbol background lighting circuit unit, the amount of light visible from the display surface side of the position lamp may be set to be dimmed.

  For this reason, adjustment of the light amount visually recognized from the display surface side of the lit position lamp can be easily realized by electronic control, particularly duty control by CPU control.

According to a third aspect of the present invention, the brightness of the display surface of the shift indicator display device corresponding to one shift position selected by the shift device at the time of illumination lighting is obtained by the background illumination circuit unit. The circuit portion and the circuit portion for obtaining the brightness of the display surface of the shift indicator display device corresponding to the shift position not selected by the shift device when the illumination of the meter device is not lit can be configured by the same circuit.

  For this reason, since a common circuit part can be configured without using a plurality of circuits, the circuit configuration can be simplified.

  For example, the amount of light that can be seen from the display surface side of the position lamp that is lit in the daytime is set in two steps, and the amount of light that is visible from the display surface side of the position lamp that is required at night is set in two steps. However, by making the intermediate light amount common, it is possible to obtain brightness suitable for the external light amount outside the vehicle by setting the light amount in three steps.

  Next, based on the drawings, an in-meter indicator lighting device according to the best mode for carrying out the present invention will be described.

  1 to 3 show an in-meter indicator lighting device and the like according to an embodiment of the present invention.

  First, the configuration of the in-meter indicator lighting device and the like will be described.

  As shown in FIG. 2, the combination meter 31 includes a meter device 33 and a shift indicator display device 36 of an in-meter indicator illumination device, and the meter device 33 is a stepping motor that drives a pointer portion 38. And a movement (not shown) using the like.

  The dial 32 that covers the front surface of the meter device 33 has a meter display surface 37 as a part of the dial 32. On the meter display surface 37, the state of the pointer portion 38 is visible. An analog display unit 46 and an indicator display unit 47 as a display surface for displaying the selected shift position of the shift device are arranged adjacent to each other in the meter display surface 37.

  The analog display unit 46 is configured to be transmissively illuminated from the back side by an LED 43 as a light source in the meter device.

  Further, the indicator display section 47 is provided with a plurality of display sections 47a to 47f on which characters P, R, N, D, 3, 1 are printed corresponding to the six shift positions.

  Each of the plurality of display units 47a to 47f is configured to be transmitted and illuminated from the back surface by the display unit illumination LEDs 44a to 44f as position lamps of the indicator light emitting unit 44 shown in FIG.

  Then, in order to indicate one shift position selected by the shift device among the six shift positions, one of the display unit illumination LEDs 44a to 44f corresponding to this shift position emits light, and this shift is performed. One of the plurality of display units 47a to 47f corresponding to the position is configured to be transmitted and illuminated from the back surface.

  Further, as shown in FIG. 3, the plurality of display unit illumination LEDs 44a to 44f of the indicator light emitting unit 44 are arranged at regular intervals so that the plurality of display units 47a to 47f are transmitted and illuminated from the back side. The LED 43 is fixed to the upper surface of the substrate 35 together with the LED 43.

  Further, the housing 34 provided in the combination meter 31 is integrally formed so that the movement of the meter device 33 (not shown), the substrate 35 and the like are accommodated.

  The housing 34 has a plurality of cylindrical portions 40a provided at regular intervals at positions suitable for transmitting illumination from the back surface corresponding to the plurality of display portions 47a to 47f, and the plurality of tubes. .., And a movement storage recess 40b for storing a movement (not shown) adjacent thereto.

  Further, the upper edge 41 of the side wall of the cylindrical portion 40a is in contact with the meter display surface 37 from the back side of the display portions 47a to 47f.

  Further, the upper surface of the substrate 35 is brought into contact with the lower end edge 42 of the housing 34 from below, and the plurality of display unit illumination LEDs 44a to 44f are inserted upward into the cylindrical portions 40a. Has been.

  For this reason, when each display part illumination LED44a-44f of the said indicator light emission part 44 is lighted separately, each illumination is comprised so that each said display part 47a-47f may be transmitted and illuminated from the back side independently. .

  The indicator LED control circuit 45 shown in FIG. 1 includes an LED lighting circuit unit 50 having display unit illumination LEDs 44a to 44f of the indicator light emitting unit 44, and the like.

  Next, the configuration of the indicator LED control circuit 45 according to the first embodiment will be described with reference to FIGS. 1, 4 and 5. FIG.

  Further, in the following specific example, the shift position selected by the shift device will be described as N shift positions, but any one of the other P, R, D, 3, 1 shift positions is The case where it is selected by the shift device will be described in substantially the same manner.

  First, voltage values used in the first embodiment are defined.

  In the first embodiment, for convenience of explanation, the power supply voltage (not shown) of the indicator LED control circuit 45 is set to V and the potential of the ground 54 is set to 0.

  Further, the potential Vil is always higher than the anode potential of the diode 66 included in the light amount adjustment circuit unit 58 as the analog electronic circuit dimming means shown in FIG. For example, in the first embodiment, Vil = V.

  Next, the ILLorIGN switch unit 51, the power supply terminal 53, and the ILL control unit 52 shown in FIG. 1 will be described.

  The potential of the ILLorIGN control terminal 64 shown in FIG. 1 is V when the ILLorIGN switch unit 51 is ON, and the potential of the ILLorIGN control terminal 64 is 0 when the ILLorIGN switch unit 51 is OFF. It is configured as follows.

  The power supply terminal 53 is configured such that the potential becomes V or 0 in conjunction with the ON state or the OFF state of the ILLORIGN switch unit 51.

  The ILL control terminal 67 connected to the output of the ILL control unit 52 has a potential of Vil when, for example, the illumination of the meter device 33 is lit at night. It is configured such that the potential becomes 0 when the illumination of 33 is not lit.

  The background illumination circuit unit 49 of the first embodiment mainly includes a dimming light emitting circuit unit 57 as an analog electronic circuit dimming unit and a light amount adjusting circuit unit 58 as an analog electronic circuit dimming unit shown in FIG. And so on.

  The indicator LED control circuit 45 is provided with an indicator switching circuit section 48 as a selective lighting circuit, an LED lighting circuit section 50, the background lighting circuit section 49, and the like.

  Further, the indicator switching circuit unit 48, the LED lighting circuit unit 50, and a light amount adjustment circuit unit 58 as an analog electronic circuit dimming unit of the background illumination circuit unit 49 are connected.

  A dimming light emitting circuit unit 57 as an analog electronic circuit dimming unit is connected to a plurality of lines connecting the indicator switching circuit unit 48 and the LED lighting circuit unit 50.

  As shown in FIG. 1, the LED lighting circuit unit 50 includes a plurality of display unit illumination LEDs 44 a to 44 f as position lamps of the indicator light emitting unit 44, a light amount adjusting resistor 59, and a light amount fine adjustment. For example, a resistor 60 is provided.

  By the way, the display unit 47b of the indicator display unit 47 corresponding to the shift position R, and the display units 47a, 47c to 47f of the indicator display unit 47 corresponding to other shift positions P, N, D, 3, and 1 Have different emission colors when emitting light.

  For this reason, when all the display parts 47a-47f of the indicator display part 47 are transmitted and illuminated simultaneously, it adjusts so that the light quantity of all the display parts 47a-47f visually recognized from a front surface may become substantially the same light quantity. Therefore, the display unit illumination LED 44b corresponding to the shift position R and the light amount fine adjustment resistor 60 are connected in series.

  At this time, the amount of light emitted from the display unit illumination LED 44b is reduced by the voltage drop of the light amount fine adjustment resistor 60. By setting this resistance value, all the display units 47a to 47f The amount of light viewed from the surface is configured to be substantially the same amount of light.

  Further, as shown in FIG. 1, the indicator switching circuit unit 48 corresponds to the shift position selected by the shift device among the six shift positions P, R, N, D, 3, 1. An indicator changeover switch 55 and the like for switching are provided.

  Then, the indicator switching circuit unit 48 serving as a selection illumination circuit for emitting any one position lamp corresponding to one shift position selected by the shift device among the plurality of position lamps is selected by the shift device. It is configured to be connected to any one of the display unit illumination LEDs 44a to 44f corresponding to one shift position.

  Further, the power supply terminal 53 is connected to a movable contact 55i of the indicator changeover switch 55, and the movable contact 55i is connected to a plurality of switching contacts 55a to 55f connected corresponding to the position selected by the shift device. Are connected to any one of them.

  The plurality of switching contacts 55a to 55f are connected to the plurality of display unit illumination LEDs 44a to 44f via the plurality of diodes 56a to 56f provided for preventing reverse current shown in FIG. It is connected.

  Therefore, a current is conducted from the power supply terminal 53 to any one of the display unit illumination LEDs 44a to 44f corresponding to one shift position selected by the shift device, and is selected by the shift device. Any one of the display unit illumination LEDs 44a to 44f corresponding to one shift position is turned on.

  As shown in FIG. 1, the dimming / light emitting circuit unit 57 includes light amount adjusting resistors 62 a to 62 f and diodes 63 a to 63 f.

  Further, one end of each of the light amount adjustment resistors 62a to 62f is connected to the ILLorIGN switch section 51 via the IL lorIGN control terminal 64, and the other end of each of the light amount adjustment resistors 62a to 62f is 1 are connected to the diodes 63a to 63f for preventing the reverse current shown in FIG. 1, and each of the diodes 63a to 63f is connected to the display unit illumination LEDs 44a to 44f.

  For this reason, when the ILLILIGN switch unit 51 is in the ON state, current is conducted to all the display unit illumination LEDs 44a to 44f, and all the display unit illumination LEDs 44a to 44f emit light. It is configured as follows.

  At this time, since a current is conducted to each of the light quantity adjusting resistors 62a to 62f, a voltage drop occurs at both ends of each of the light quantity adjusting resistors 62a to 62f, and the light quantity adjusting resistors 62a to 62f are connected in series. The voltage at both ends of each of the display unit illumination LEDs 44a to 44f connected to is reduced.

  Accordingly, in the first embodiment, all the display unit illuminations are performed by the dimming light emitting circuit unit 57 of the background illumination circuit unit that emits the other position lamps that are not selected by the shift device with substantially the same amount of light. The LEDs 44a to 44f are configured to be dimmed and emit light simultaneously.

  For this reason, in the first embodiment, the one position lamp selected by the shift device is turned on with a different light quantity so that the occupant can visually recognize the shift position selected by the shift device. It is configured.

  Further, in the first embodiment, the background illumination circuit unit includes the dimming light emitting circuit unit 57 as an analog electronic circuit dimming unit for dimming the light amount of the position lamp to be lit using a resistor. It is configured.

  The light amount adjustment circuit unit 58 of the background illumination circuit unit 49 includes a diode 66, a light amount adjustment resistor 65, and the like.

  The cathode of the diode 66 is connected to the output of the ILL control unit 52 via the ILL control terminal 67, and the anode of the diode 66 is connected to the light amount adjusting resistor 59. The other end of the display resistor 59 is connected to the display unit illumination LED 44b through the light amount fine adjustment resistor 60 and to one end of each of the display unit illumination LEDs 44a, 44c to 44f. The anode of the diode 66 is connected to the ground 54 via the light amount adjusting resistor 65.

  Therefore, in response to the output potential of the ILL control unit 52 being 0 or Vil, the voltage drop across the light amount adjusting resistor 65 of the light amount adjusting circuit unit 58 is the voltage 0 or the light amount. The voltage drop value at both ends of the adjustment resistor 65 is switched.

  For this reason, all the display unit illumination LEDs 44a to 44f connected in series with the light amount adjustment circuit unit 58 in response to the potential of the output of the ILL control unit 52 being switched to 0 or Vil. Is switched to a high voltage or a low voltage, so that the light amounts of all the display unit illumination LEDs 44a to 44f are simultaneously switched to a strong light amount or a weak light amount.

  Accordingly, when the output potential of the ILL control unit 52 is Vil, all the display unit illumination LEDs 44a to 44f are simultaneously dimmed by the light amount adjustment circuit unit 58 to emit light.

  Therefore, in the first embodiment, the background illumination circuit unit includes the light amount adjustment circuit unit 58 as an analog electronic circuit dimming unit that dimms the light amount of the position lamp to be lit using a resistor. It is configured.

  Here, the state where the ILLILIGN switch unit 51 is ON and the potential of the output of the ILL control unit 52 is 0 or Vil will be described separately.

  First, for example, a state where the potential of the output of the ILL control unit 52 corresponding to the case where the illumination of the meter device 33 is not lit in the daytime will be described. At this time, the diode 66 is in a conductive state.

  Here, it is assumed that any one of the six shift positions is selected. For example, in the first embodiment, it is assumed that N of the shift position is selected.

  That is, it is assumed that the movable contact 55i of the indicator changeover switch 55 is connected to the changeover contact 55c corresponding to the shift position N.

  At this time, a current V is applied from the power supply terminal 53 to the movable contact 55i, the switching contact 55c, the diode 56c, and the display unit illumination LED 44c by the potential V applied to the power supply terminal 53. The light amount adjusting resistor 59 having a resistance value R and the diode 66 are electrically connected to the ILL control terminal 67 having a potential of 0.

  In this case, the amount of light emitted from the display unit illumination LED 44c is set to be reduced to a desired amount of emitted light by a voltage drop generated by the light amount adjusting resistor 59 having a resistance value R.

  In the first embodiment, the indicator display portion 47c of the indicator display portion 47 illuminated by the display portion illumination LED 44c corresponding to one shift position N selected by the shift device in this case is visually recognized from the outside. The brightness is referred to as a “strong” brightness state.

  This brightness is the brightness dimmed by the voltage drop of the resistance value R. For example, in the daytime, the brightness of “strong” is set to a desired light amount when viewing the display unit 47c corresponding to one shift position N selected by the shift device.

  By the way, since the voltage V supplied by the power source is constant, the voltage drop due to the resistance increases as the resistance value of the resistor connected in series to the display unit lighting LEDs 44a to 44f increases. The voltage across the LEDs 44a to 44f is reduced, and the amount of light emitted by the display unit illumination LEDs 44a to 44f is reduced.

  Therefore, the brightness “strong” is the brightness dimmed by the voltage drop of the resistance value R.

  Next, for example, among the six shift positions, the display unit illumination LEDs 44a, 44b, 44d to 44f corresponding to P, R, D, 3, 1 of the other five shift positions not selected by the shift device. The circuit will be described.

  In this case, due to the potential V applied to the ILLorIGN control terminal 64, a plurality of current adjusting resistors 62a, 62b, 62d to 62f having a resistance value R1 are supplied from the ILLorIGN control terminal 64, and a plurality of currents are adjusted. The diodes 63a, 63b, 63d to 63f are electrically connected to the display unit illumination LEDs 44a, 44b, 44d to 44f.

  One of the display unit illumination LEDs 44b is connected to the light amount adjustment resistor 59 having a resistance value R via the light amount fine adjustment resistor 60 having a resistance value r, and the other display unit illuminations. LEDs 44a, 44d to 44f are directly connected to the light amount adjusting resistor 59 having a resistance value R, and are connected to the diode 66 for the ILL control with the same potential 0 as the output of the ILL control unit 52. It is connected to the terminal 67 and becomes conductive.

  In this case, the amount of light emitted from the display unit illumination LEDs 44a and 44d to 44f is caused by the voltage drop generated by the light amount adjusting resistors 62a and 62d to 62f having a resistance value R1, and the light amount adjusting resistor 59 having a resistance value R. It is configured to be dimmed by a voltage drop.

  Further, the amount of light emitted from the LED for illumination of the display unit 44b includes a voltage drop caused by the light quantity adjusting resistor 62b having a resistance value R1, a voltage drop caused by the light quantity fine adjusting resistor 60 having a resistance value r, and a resistance value R. It is configured to be dimmed by a voltage drop generated by the light amount adjusting resistor 59.

  In this case, the amount of light emitted from the display unit illumination LEDs 44a, 44b, 44d to 44f is larger than that of the display unit illumination LED 44c selected by the shift device, the light amount adjustment resistors 62a, 62b, The light is further dimmed by the amount corresponding to the voltage drop generated by 62d to 62f.

  By the way, the emitted light quantity of the display unit illumination LED 44b is transmitted corresponding to the emitted light quantity of the other plurality of display unit illumination LEDs 44a, 44c to 44f by the light quantity fine adjustment resistor 60 having a resistance value r. Since the light amount visually recognized from the front surfaces of the plurality of display units 47a to 47f of the indicator display unit 47 to be illuminated is set to be a uniform light amount, in this case, the resistance of the combined resistance value R + R1 is eventually obtained. The amount of light reduction is equivalent to a voltage drop of.

  In the first embodiment, the display units 47a, 47b of the indicator display unit 47 that are transmitted and illuminated by the display unit illumination LEDs 44a, 44b, 44d to 44f corresponding to the shift positions not selected by the shift device in this case. The brightness visually recognized from the outside of 47d to 47f is referred to as a “medium a” brightness state.

  This brightness “medium a” is the brightness reduced by the voltage drop of the combined resistance value R + R1, as described above.

  Further, the shift indicator display device in which the light intensity “strong” of the position lamp of the shift indicator display device 36 corresponding to the shift position selected by the shift device corresponds to the shift position not selected by the shift device. Since the light emission amount “middle a” of the 36 position lamps is brighter, the shift position selected by the shift device can be visually recognized.

  Furthermore, by setting the resistance value R of the light amount adjusting resistor 59, the brightness of the “middle a” of the indicator display unit 47 is set, for example, when the illumination of the meter device 33 is not lit in the daytime. The brightness of the meter display surface 37 can be set substantially the same.

  Therefore, in the first embodiment, the light amount visually recognized from the display surface side of the position lamp lit by the background illumination circuit unit and the light amount of the light source in the meter device visually recognized from the front side of the meter display surface of the meter device. Are set to have substantially the same light amount, the resistance value R of the light amount adjusting resistor 59 is set.

  Next, for example, the state where the output potential of the ILL control unit 52 corresponding to the case where the illumination of the meter device 33 is lit at night is Vil will be described. At this time, the diode 66 is in a non-conductive state.

  At this time, a current V is applied from the power supply terminal 53 to the movable contact 55i, the switching contact 55c, the diode 56c, and the display unit illumination LED 44c by the potential V applied to the power supply terminal 53. The light amount adjusting resistor 59 having a resistance value R and the light amount adjusting resistor 65 having a resistance value R2 are electrically connected to the ground 54 having the potential 0.

  In this case, the amount of light emitted from the display unit illumination LED 44c is a desired light emission due to a voltage drop caused by the light quantity adjustment resistor 59 having a resistance value R and a voltage drop caused by the light quantity adjustment resistor 65 having a resistance value R2. Dimmed to light intensity and set.

  Eventually, in this case, the amount of light decreases corresponding to the voltage drop of the combined resistance value R + R2.

  In the first embodiment, the indicator display portion 47c of the indicator display portion 47 illuminated by the display portion illumination LED 44c corresponding to one shift position N selected by the shift device in this case is visually recognized from the outside. The brightness is referred to as a “medium b” brightness state.

  This brightness “medium b” is the brightness that is dimmed by the voltage drop of the combined resistance value R + R2.

  Further, the circuits of the display unit illumination LEDs 44a, 44b, 44d to 44f corresponding to the other five shift positions P, R, D, 3, 1 not selected by the shift device will be described.

  In this case, due to the potential V applied to the ILLorIGN control terminal 64, a current is supplied from the ILLorIGN control terminal 64 to each of the plurality of light amount adjusting resistors 62a, 62b, 62d to 62f having a resistance value R1. The plurality of diodes 63a, 63b, 63d to 63f are electrically connected to the display unit illumination LEDs 44a, 44b, 44d to 44f of the indicator light emitting units 44.

  The indicator illumination LED 44b of one of the indicator light emitting units 44 is connected to the light amount adjusting resistor 59 having a resistance value R via the light amount fine adjusting resistor 60 having a resistance value r, and the other light emitting unit 44b. The display unit illumination LEDs 44a and 44d to 44f of the indicator light emitting unit 44 are directly connected to the ground of the potential 0 through the light amount adjusting resistor 59 having a resistance value R and the light amount adjusting resistor 65 having a resistance value R2. 54 is conducted.

  In this case, the amount of light emitted from the display unit illumination LEDs 44a and 44d to 44f of the indicator light emitting unit 44 is a voltage drop caused by the light amount adjusting resistors 62a and 62d to 62f having a resistance value R1, and the light amount adjustment of a resistance value R. The light is reduced by the voltage drop caused by the resistance 59 and the voltage drop caused by the light quantity adjusting resistor 65 having the resistance value R2.

  Further, the amount of light emitted from the LED for illumination of the display unit 44b includes a voltage drop caused by the light quantity adjusting resistor 62b having a resistance value R1, a voltage drop caused by the light quantity fine adjusting resistor 60 having a resistance value r, and a resistance value R. It is configured to be dimmed by a voltage drop caused by the light quantity adjusting resistor 59 and a voltage drop caused by the light quantity adjusting resistor 65 having a resistance value R2.

  In this case, the amount of light emitted from the display unit illumination LEDs 44a, 44b, 44d to 44f is larger than that of the display unit illumination LED 44c selected by the shift device, the light amount adjustment resistors 62a, 62b, The light is further dimmed by the amount corresponding to the voltage drop generated by 62d to 62f.

  Eventually, in this case, the amount of light is reduced corresponding to the voltage drop of the combined resistance value R + R1 + R2.

  In the first embodiment, the display units 47a, 47b of the indicator display unit 47 that are transmitted and illuminated by the display unit illumination LEDs 44a, 44b, 44d to 44f corresponding to the shift positions not selected by the shift device in this case. The brightness visually recognized from the outside of 47d to 47f will be referred to as a “weak” brightness state.

This brightness “weak” is the brightness dimmed by the voltage drop of the combined resistance value R + R1 + R2.
Further, the state where the ILLILIGN switch unit 51 is OFF will be described.

  When the ILLorIGN switch section 51 is in an OFF state, the potential of the ILLorIGN control terminal 64 and the potential of the power supply terminal 53 are linked to 0, and the display section illumination LED 44a. Since the current is not conducted to .about.44f, all the display unit illumination LEDs 44a to 44f are configured to be turned off.

  Further, the light quantity “middle b” of the position lamp of the shift indicator display device 36 corresponding to the shift position selected by the shift device is the shift indicator display corresponding to the shift position not selected by the shift device. Since the light emission amount of the position lamp of the device 36 is brighter than “weak”, the shift position selected by the shift device can be visually recognized.

  Further, by setting the resistance value R2 of the light amount adjustment resistor 65, the brightness of the indicator display unit 47 when the illumination of the meter device 33 is not lit at night, for example, It is set substantially the same as the brightness of the meter display surface 37.

  Therefore, in the first embodiment, the light amount visually recognized from the display surface side of the position lamp lit by the background illumination circuit unit and the light amount of the light source in the meter device visually recognized from the front side of the meter display surface of the meter device. Are set to have substantially the same light amount, the resistance value R2 of the light amount adjusting resistor 65 is set.

  By the way, the light intensity is dimmed and darker in the “medium a” state than in the “strong” state, while the “weak” state is dimmed and darker than the “medium b” state. The intensity of the light intensity of “b” and “medium b” is set according to the magnitude relationship between the resistance value R1 of the light quantity adjustment resistors 62a to 62f and the resistance value R2 of the light quantity adjustment resistor 65.

  Here, the above result is shown in FIG.

  By the way, the light amount difference between the light emission amount of the indicator display unit 47 corresponding to the shift position selected by the shift device and the light emission amount of the indicator display unit 47 corresponding to the shift position not selected by the shift device is the resistance value of R1. Set by.

  Further, the difference between the light emission amount of the indicator display unit 47 corresponding to daytime and the light emission amount of the indicator display unit 47 corresponding to nighttime is set by the resistance value of R2.

  The light emission amounts of all the indicator display portions 47 that are lit are simultaneously set by the R resistance value.

  Here, by setting the resistance value R1 of the light amount adjusting resistors 62a to 62f and the resistance value R2 of the light amount adjusting resistor 65 to the same value R1 = R2 = Rc, the light amount adjusting resistance of the resistance value Rc is adjusted. By setting the voltage drop value of the resistors 62a to 62f and the voltage drop value of the light amount adjusting resistor 65 having the resistance value Rc to the same value, the brightness “middle a” and the brightness “middle b” are set to the same light amount. Set to

  The amount of light visually recognized by the same amount of light is referred to as a “medium” brightness state.

  Here, FIG. 5 shows a result when the brightness “middle a” and the brightness “middle b” are set to the same light quantity by setting R1 = R2 = Rc.

  Therefore, in the background illumination circuit unit of the first embodiment, the brightness of the display surface of the shift indicator display device corresponding to one shift position selected by the shift device at the time of illumination lighting is not illuminated of the meter device. The light amount is set to be substantially the same as the brightness of the display surface of the shift indicator display device corresponding to the shift position not selected by the shift device.

    Next, the operation of the first embodiment will be described based on FIG. 1, FIG. 4, and FIG.

  For example, in the first embodiment, as shown in FIG. 5, when the illumination of the meter device 33 is not lit in the daytime, the indicator display unit 47 corresponding to the shift indicator that is not selected by the shift device. The brightness “medium” and the brightness of the analog display section 46 of the meter display surface 37 are set to be substantially the same.

  For this reason, the indicator display unit 47 corresponding to the shift indicator not selected by the shift device has a brightness of substantially the same amount of light as the analog display unit 46 in the meter display surface 37, and the occupant can visually recognize it without a sense of incongruity. .

  Further, since the brightness of the indicator display unit 47 corresponding to the shift indicator selected by the shift device is “strong”, it is selected by the shift device based on the light amount difference from the “medium” brightness. It becomes possible to confirm the shift position.

  On the other hand, at this time, when the illumination of the meter device 33 is lit at night, “weak”, which is the visually recognized brightness of the indicator display unit 47 corresponding to the shift indicator not selected by the shift device, The visible brightness of the analog display unit 46 on the meter display surface 37 is set to be substantially the same.

  For this reason, the indicator display unit 47 corresponding to the shift indicator not selected by the shift device has a brightness of substantially the same amount of light as the analog display unit 46 in the meter display surface 37, and the occupant can visually recognize it without a sense of incongruity. .

  In addition, since the visually recognized brightness of the indicator display unit 47 corresponding to the shift indicator selected by the shift device is “medium”, the brightness is selected by the shift device based on the light amount difference from the “weak” brightness. It becomes possible to confirm the shift position.

  At this time, since it is night, the vehicle in which the occupant is present is in a dark state. Therefore, the brightness of the indicator display unit 47 corresponding to the shift indicator selected by the shift device is “high”. Because it is too bright, set it to “Medium”.

  Thus, the indicator lamp circuit 48 that lights the position lamp corresponding to any one of the shift positions selected by the vehicle shift device emits light with a light amount different from that of the background illumination.

  For this reason, the shift position selected by the shift device can be visually recognized by light emission of different light amounts from the position lamp of the shift indicator display device 36.

  Therefore, a conventional light guide member is not necessary, and the number of parts can be reduced.

  Further, since the brightness of the indicator display unit 47 in all the cases described above can be set by setting the resistance value R of the light amount adjustment resistor 59 of the LED lighting circuit unit 50, it is not selected by the shift device. The brightness of the indicator display unit 47 corresponding to the shift position can be set to a desired light amount and used for background illumination.

  For this reason, the display surface of the shift indicator display device can be always transmitted and illuminated from the back surface without using a light guide member or the like to guide light from the light source or the like of the meter device.

  Further, the respective resistance values R1 of the light amount adjusting resistors 62a to 62f of the dimming light emitting circuit unit 57 shown in FIG. 1 and the resistance value R2 of the light amount adjusting resistor 65 of the light amount adjusting circuit unit 58 are set to the same value. Thus, a circuit portion for obtaining the brightness of the indicator display unit 47 corresponding to one shift position selected by the shift device when the illumination of the meter device 33 is lit, and a shift when the illumination of the meter device 33 is not lit. A circuit part for obtaining the brightness of the indicator display unit 47 corresponding to a shift position not selected by the apparatus can be configured by the background illumination circuit unit 49 of the same circuit.

  For this reason, since a common circuit part can be configured without using a plurality of circuits, the circuit configuration can be simplified.

  For example, the amount of light that can be seen from the display surface side of the position lamp that is lit in the daytime is set in two steps, and the amount of light that is visible from the display surface side of the position lamp that is required at night is set in two steps. However, by making the intermediate light amount common, it is possible to obtain brightness suitable for the external light amount outside the vehicle by setting the light amount in three steps.

  Further, by setting the respective resistance values of the light amount adjustment resistor 59 and the light amount fine adjustment resistor 60 of the LED lighting circuit unit 50, the light amounts of the display unit illumination LEDs 44a to 44f for the background illumination are changed to a desired light amount. Therefore, the amount of light visually recognized from the front surface of the analog display unit 46 included in the meter display surface 37 of the dial 32 of the combination meter 31 and the indicator display unit 47 included in the meter display surface 37 can be adjusted. The display portions 47a to 47f can be visually recognized as substantially the same light amount.

  The light amount visually recognized from the display surface side of the position lamp is reduced to a desired light amount by the analog electronic circuit dimming means using this resistor. For this reason, the adjustment of the amount of light visually recognized from the display surface side of the lit position lamp can be easily realized by adjusting the resistance value of the resistor.

  Further, for this reason, even if the meter display surface 37 of the meter device 33 and the display surface of the shift indicator display device 36 are arranged adjacent to each other, the amount of light can be approximated and illuminated without a sense of incongruity.

  Accordingly, the degree of freedom in the layout of the meter device 33 can be improved, for example, by providing the display surface of the shift indicator display device 36 in the meter display surface 37 of the meter device 33.

  Next, the configuration of the in-meter indicator lighting device according to the second embodiment will be described with reference to FIGS.

  First, the configuration of the in-meter indicator lighting device and the like will be described focusing on the differences from the first embodiment.

  The same or equivalent parts as in the first embodiment will be described with the same reference numerals.

  In the second embodiment, a display surface substantially similar to the indicator display unit 47 for displaying the selected shift position on the meter display surface substantially the same as the meter display surface 37 of the first embodiment shown in FIG. The indicator display section is arranged adjacent to the meter display surface.

  The indicator display section is provided with a plurality of display sections on which characters P, R, N, D, 4, 3, and L (not shown) are printed corresponding to the seven shift positions.

  Further, each of the plurality of display units is transmissively illuminated from the back surface by the display unit illumination LEDs 144a to 144g as position lamps of the indicator light emitting unit 144 provided in the indicator LED control circuit 145 shown in FIG. It is comprised so that.

  Further, as shown in FIG. 6, an indicator switching circuit unit 148 as a selective illumination circuit is connected to the plurality of display unit illumination LEDs 144 a to 144 g provided in the LED lighting circuit unit 150. The indicator switching circuit unit 148 is configured to be connected to any one of the display unit illumination LEDs 144a to 144g corresponding to one shift position selected by the shift device.

  The indicator switching circuit unit 148 includes an indicator switching switch 155 that switches according to the shift position selected by the shift device among the seven shift positions P, R, N, D, 4, 3, and L. Is provided.

  Further, the power supply terminal 153 shown in FIG. 6 is connected to the movable contact 155i of the indicator changeover switch 155, and the movable contact 155i is connected to a plurality of switches connected corresponding to the position selected by the shift device. It is connected to any one of the contacts 155a to 155g.

  Further, the plurality of switching contacts 155a to 155g are connected to the plurality of display unit illumination LEDs 144a to 144g via the plurality of diodes 156a to 156g provided for preventing reverse current shown in FIG. It is connected.

  Therefore, a current is conducted from the power supply terminal 153 to any one of the display unit illumination LEDs 144a to 144g corresponding to one shift position selected by the shift device, and any one of the display units. The illumination LEDs 144a to 144g are configured to be lit.

  A background lighting circuit unit 149 shown in FIG. 6 is connected to the LED lighting circuit unit 150. The background illumination circuit unit 149 mainly includes a dimming light emitting circuit unit 157 as a digital control dimming unit and a light amount adjustment circuit unit 158 as a digital control dimming unit shown in FIG. Has been.

  Among these, the dimming light emitting circuit portion 157 is configured to include a transistor 160a, a transistor 160b, and the like.

  The base of the transistor 160a is connected to one of the outputs of the ILL-CPU control unit 152 via the ILL-CPU control terminal 165 shown in FIG. 6, and the collector of the transistor 160a is connected to the transistor 160b. The emitter of the transistor 160a is connected to the ground 154b.

  The emitter of the transistor 160b is connected to the ILLorIGN switch 151 through an ILLILIGN control terminal 164 shown in FIG. 6, and the collector of the transistor 160b is for preventing the reverse current shown in FIG. The diodes 163a to 163g are connected to all of the diodes 163a to 163g, and the diodes 163a to 163g are connected to the display unit illumination LEDs 144a to 144g of the indicator light emitting unit 144.

  For this reason, the output potential connected to the ILL-CPU control terminal 165 of the ILL-CPU control unit 152 is switched to a low potential or a high potential when the ILLILIGN switch unit 151 is in an ON state. Thus, the voltage drop between the collector and the emitter of the transistor 160b is switched to a high voltage or a low voltage.

  Further, in response to the potential of the output connected to the ILL-CPU control terminal 165 of the ILL-CPU control unit 152 becoming a low potential or a high potential, the transistor via the diodes 163a to 163g. Since the voltage between both ends of each of the display unit lighting LEDs 144a to 144g connected in series with the 160b is switched to a low voltage or a high voltage, the reduced light amount of all the display unit lighting LEDs 144a to 144g is switched simultaneously. Has been.

  Accordingly, when the ILLorIGN switch unit 151 is in the ON state, all the display unit illumination LEDs 144a to 144g are dimmed by the dimming light emitting circuit unit 157 so as to emit light simultaneously.

  Further, the light amount adjustment circuit unit 158 of the background illumination circuit unit 149 is provided with a transistor 166 and the like, and the base of the transistor 166 is connected via an ILL-CPU control terminal 167 shown in FIG. Connected to one of the outputs of the ILL-CPU control unit 152, the collector of the transistor 166 is connected to all of the light amount adjusting resistors 159a to 159g.

  Further, the collector of the transistor 166 is connected to the ground 154c shown in FIG.

  The light quantity adjusting resistors 159a to 159g are connected to the display unit illumination LEDs 144a to 144g, and the emitter of the transistor 166 is connected to the ground 154a shown in FIG.

  For this reason, the output potential connected to the ILL-CPU control terminal 167 of the ILL-CPU control unit 152 becomes a low potential or a high potential when the ILLORIGN switch unit 151 is in the ON state. Thus, the voltage drop between the collector and the emitter of the transistor 166 is switched to a high voltage or a low voltage.

  Further, in response to the output potential connected to the ILL-CPU control terminal 167 of the ILL-CPU control unit 152 switching to a low potential or a high potential, the light amount adjustment resistors 159a to 159g are used. In other words, since the voltage across each of the display unit illumination LEDs 144a to 144g connected in series with the transistor 166 is switched to a low voltage or a high voltage, the amount of light reduction of all the display unit illumination LEDs 144a to 144g is switched simultaneously. It is configured as follows.

  Accordingly, when the ILLORIGN switch unit 151 is in the ON state, all the display unit illumination LEDs 144a to 144g are dimmed by the light amount adjustment circuit unit 158 so as to emit light simultaneously.

  Next, the operation of the second embodiment will be described with reference to FIGS.

  In the following specific example, it is assumed that the shift position selected by the shift device is the N shift position, but one of the other P, R, D, 4, 3, and L shift positions. The case where one is selected by the shift device will be described in substantially the same manner.

  First, the state where the ILLORIGN switch unit 151 is ON and the potentials of the two outputs of the ILL-CPU control unit 152 are high potential or low potential will be described separately.

  If the illumination of the meter device 33 is not lit during the daytime when the ILLORIGN switch unit 151 is in an ON state, the two output potentials of the ILL-CPU control unit 152 become high potentials.

  In the case of this daytime, the display unit illumination LED 144c is dimmed by the voltage drop of the transistor 166 connected in series with the display unit illumination LED 144c corresponding to the shift position N selected by the shift device. Flashes.

  At this time, the voltage value of the voltage drop of the transistor 166 is set so that the brightness of the indicator display unit 47 corresponding to the shift position N can be seen by the passenger. This brightness is the “strong” brightness.

  Further, in the case of this daytime, it is connected in series with each of the plurality of display unit illumination LEDs 144a, 144b, 144d to 144g corresponding to the shift positions P, R, D, 4, 3, and L not selected by the shift device. The plurality of display unit lighting LEDs 144a, 144b, and 144d to 144g are dimmed according to the sum of the voltage drops of the transistor 160b and the transistor 166, and emit light.

  At this time, compared with the indicator display unit 47 corresponding to the shift position N, the indicator display unit 47 corresponding to the shift positions P, R, D, 4, 3, and L is further dimmed and emits light. The brightness visually recognized by the occupant of the indicator display unit corresponding to the shift positions P, R, D, 4, 3, and L is the “middle a” brightness.

  At this time, the light quantity of light emitted from the position lamp of the shift indicator display device 36 corresponding to the shift position selected by the shift device corresponds to the shift position not selected by the shift device. Since it is brighter than the emitted light quantity of 36 position lamps, the shift position selected by the shift device can be visually recognized.

  Next, at night, when the illumination of the meter device 33 is lit, the two output potentials of the ILL-CPU control unit 152 become low potentials.

  In the case of this night, the display unit illumination LED 144c is dimmed by the voltage drop of the transistor 166 connected in series with the display unit illumination LED 144c corresponding to the shift position N selected by the shift device. Is emitted.

  At this time, the voltage value of the voltage drop of the transistor 166 is set so that the brightness of the indicator display unit 47 corresponding to the shift position N can be seen by the passenger. This brightness is the “middle b” brightness.

  Further, in this nighttime, since the vehicle in which the passenger is present is in a dark state, the brightness of the indicator display unit 47 corresponding to the shift indicator selected by the shift device is “high”. Since it is too bright, the light amount is set to “medium b” darker than “strong”.

  Further, in the case of this night, in series with each of the plurality of display unit illumination LEDs 144a, 144b, 144d to 144g corresponding to the respective shift positions P, R, D, 4, 3, and L not selected by the shift device. The plurality of display unit illumination LEDs 144a, 144b, and 144d to 144g are dimmed according to the sum of the voltage drop between the transistor 160b and the transistor 166 connected to emit light.

  At this time, compared with the indicator display unit 47 corresponding to the shift position N, the indicator display unit 47 corresponding to the shift positions P, R, D, 4, 3, and L is further dimmed and emits light. The brightness of the indicator display unit 47 corresponding to the shift positions P, R, D, 4, 3, and L that the occupant visually recognizes is the “weak” brightness.

  Further, in the case of this night, the amount of light emitted from the position lamp of the shift indicator display device 36 corresponding to the shift position selected by the shift device is the shift corresponding to the shift position not selected by the shift device. Since the amount of light emitted from the position lamp of the indicator display device 36 is brighter, the shift position selected by the shift device can be visually recognized.

  Furthermore, in this Example 2, the brightness of the illumination of the combination meter at night is darker than that of “medium a” than the brightness of the illumination of the combination meter at daytime. Is dimmed.

  Next, when the ILLorIGN switch unit 151 is in an OFF state, the potentials of the power supply terminal 153 and the ILLorIGN control terminal 164 become 0, and no current is supplied to the LED lighting circuit unit 150. The partial illumination LEDs 144a to 144g do not emit light and are turned off.

  Here, regarding the two output potentials of the ILL-CPU control unit 152, for example, the output potential of the ILL-CPU control unit 152 connected to the ILL-CPU control terminal 167 is high when the potential is V. It is assumed that the potential is a low potential when the potential is zero.

  Further, for example, the output potential of the ILL-CPU control unit 152 connected to the ILL-CPU control terminal 165 is controlled by DUTY control by PWM (pulse width modulation).

  When the illumination of the meter device 33 is lit, the PWM is turned on.

  The effective value of the output potential of the ILL-CPU control unit 152 connected to the ILL-CPU control terminal 165 is assumed to be a high potential when the DUTY ratio is medium, and is low when the DUTY ratio is small. Suppose there is.

  The results so far are shown in FIG.

  Further, in the second embodiment, the voltage drop between the collector and the emitter of the transistor 160b and the voltage drop between the collector and the emitter of the transistor 166 are set to desired voltages, and the brightness “medium a” is obtained. The brightness “middle b” is set to be the same. Since “middle a” and “middle b” have the same brightness, this brightness is referred to as “middle”.

  The result is shown in FIG.

  In the second embodiment, the amount of light that is visually recognized from the display surface side of the position lamp is reduced by the digital control dimming means that dims using the transistor circuit of the background illumination circuit unit 149.

  For this reason, adjustment of the light amount visually recognized from the display surface side of the lit position lamp can be easily realized by electronic control, particularly duty control by CPU control.

  In the second embodiment, when the brightness of the illumination is automatically or manually adjusted by the automatic adjustment function or the manual adjustment function of the meter device 33, for example, duty control by CPU control is performed. By controlling the two output potentials of the ILL-CPU control unit 152, the amount of light visually recognized from the display surface side of the position lamp is changed in accordance with the change in brightness of the illumination. Also good.

  Other configurations and functions and effects are substantially the same as those of the first embodiment, and thus description thereof is omitted.

  Although the best embodiment of the present invention has been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and design changes that do not depart from the gist of the present invention are possible. Are included in the present invention.

  For example, in the first embodiment, as shown in FIG. 2, the analog display unit 46 on the upper side and the indicator display unit 47 on the lower side are arranged adjacent to each other in the same meter display surface 37. Although shown and described, the present invention is not limited to this, and the indicator display unit 47 of the shift indicator display device 36 is disposed adjacent to the left, right, upper, or lower side of the meter display surface of the meter device, etc. The shape, quantity, and material are not particularly limited as long as they are provided on the dial 32 in the combination meter 31 and are in-meter indicator lighting devices arranged adjacent to or close to the meter display surface.

  For example, in the first embodiment and the second embodiment, the indicator light quantity of the indicator display unit 47 corresponding to the shift position selected by the shift device is the indicator corresponding to the shift position not selected by the shift device. Although it is configured to be brighter than the amount of light emitted from the display unit 47, if there is a difference in the amount of light, it can be visually recognized by the passenger, so the indicator display unit 47 corresponding to the shift position selected by the shift device. The amount of emitted light may be darker as long as it is turned on with a different amount of light.

  Further, for example, in the first and second embodiments, the brightness of the indicator display unit 47 of the shift indicator display device 36 is limited to three levels of “strong”, “medium”, and “weak”. The amount of emitted light of the indicator display unit 47 corresponding to the shift position selected by the device may be different from the amount of emitted light of the indicator display unit 47 corresponding to the shift position not selected by the shift device, and is visible to the passenger. Therefore, the brightness of the indicator display section 47 of the shift indicator display device 36 can be set to two levels, and the light amount may be adjusted in multiple levels of four or more levels.

  In this case, for example, if duty control is performed using the circuit configuration of the second embodiment, the intensity of the light quantity at each stage can be varied in a stepless manner.

It is Example 1 of the best mode of this invention, and is a circuit diagram of the LED control circuit for indicators used for the indicator lighting apparatus in a meter. It is a front view explaining the structure of the principal part of a combination meter by the indicator illuminating device in a meter of Example 1 of this invention. It is sectional drawing in the part along the BB line in FIG. 2 with the indicator illuminating device in a meter of Example 1 of this invention. It is a table | surface figure which shows the combination of switching in the indicator lighting apparatus in a meter of Example 1 of this invention. It is a table | surface figure which shows the combination of switching in the indicator lighting apparatus in a meter of Example 1 of this invention. In Example 2 of this invention, it is a circuit diagram of the LED control circuit for indicators used for the indicator illuminating device in a meter. It is a table | surface figure which shows the combination of switching in the indicator lighting apparatus in a meter of Example 2 of this invention. It is a table | surface figure which shows the combination of switching in the indicator lighting apparatus in a meter of Example 2 of this invention. It is a front view explaining the structure of the principal part of a combination meter in one prior art example. It is sectional drawing in the part along the AA line in FIG. 9 with a combination meter in one prior art example.

Explanation of symbols

31 Combination Meter 33 Meter Device 36 Shift Indicator Display Device 37 Meter Display Surfaces 44a to 44f Display Unit Lighting LEDs (Position Lamps)
47 Indicator display (display surface)
48 Indicator switching circuit (selective lighting circuit)
49 Background illumination circuit part 57 Dimming light emitting circuit part (analog electronic circuit dimming means)
58 Light intensity adjustment circuit (analog electronic circuit dimming means)
144a to 144g LED for display illumination (position lamp)
148 Indicator switching circuit (selection lighting circuit)
149 Background illumination circuit unit 157 Dimming light emitting circuit unit (digital control dimming means)
158 Light quantity adjustment circuit (digitally controlled dimming means)

Claims (3)

A meter device that is constantly lit when traveling is provided in the combination meter of the vehicle , and a meter display surface and a display surface of the shift indicator display device are disposed adjacent to each other in the meter device, and the display surface of the shift indicator display device is An indicator illumination device in a meter that transmits and illuminates by light emission of a plurality of position lamps from the back side ,
A selection illumination circuit for emitting any one position lamp corresponding to one shift position selected by the shift device among the plurality of position lamps ;
A background illumination circuit unit that emits light of substantially the same amount of light to position lamps corresponding to other shift positions that are not selected ,
A light amount adjusting resistor is connected to the position lamp,
The background illumination circuit unit weakens the light emission amount of the position lamp by increasing the resistance value of the light amount adjustment resistor when the illumination is turned on, and reduces the resistance value of the light amount adjustment resistor when the illumination is not turned on. An in- meter indicator illumination device comprising analog electronic circuit dimming means for increasing the amount of light emitted from the position lamp .   The amount of light visually recognized from the display surface side of the position lamp lit by the background illumination circuit unit and the amount of light of the light source in the meter device visually recognized from the front side of the meter display surface of the meter device are set to substantially the same amount of light. The in-meter indicator illumination device according to claim 1. In the background illumination circuit unit, the brightness of the display surface of the shift indicator display device corresponding to one shift position selected by the shift device when the illumination is lit is selected by the shift device when the illumination of the meter device is not lit. The in-meter indicator illumination device according to claim 1, wherein the in-meter indicator illumination device is set so as to have substantially the same light amount as the brightness of the display surface of the shift indicator display device corresponding to a shift position that is not .

Images